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Commonwealth Games 2002

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Tuesday, 15 January, 2002, 10:33 GMT
The 'sport' of bioengineering
Rings, Uni of Utah
The nerve cells are "tagged" with a fluorescent red dye
Yes, it is a picture of the Olympic rings, but the rings themselves are constructed out of living nerve cells.

This biological version of the icon of sporting excellence measures 3.4 millimetres - about one-eighth of an inch - across.

The "living rings", as they have been dubbed, were produced by a graduate student at the University of Utah, Mike Manwaring. The state capital of Utah, Salt Lake City, is hosting the 2002 Winter Olympic Games.

The purpose was "to demonstrate technology that someday might help repair spinal cord injuries from accidents and brain damage from Alzheimer's, Parkinson's or other diseases", the university said.

Across a scaffold

Patrick Tresco, an associate professor of bioengineering and director of the university's Keck Center for Tissue Engineering, added: "It shows the public the biomedical research community's level of achievement, just as the Olympic Games demonstrate a high level of athletic accomplishment."

The body of each nerve cell - glowing as bright red dots in a microscopic picture of the rings - measures 20 microns (millionths of a metre), or two-fifths the width of a human hair. Each nerve fibre or axon in the rings is one micron wide - about one-fiftieth the width of a human hair.

The nerve cells were grown over a bioengineered scaffold - shaped like the five Olympic rings - made of other cells, which in turn grew on a plastic material mounted on a brass plate.

"The objective of our lab is to control cell behaviour on materials," Dr Tresco said. "So I challenged the group to create a living symbol of the Olympic Winter Games - using living nerve cells and tissue engineering technology."

Severed spinal cord

Scientists hope new cell technologies will eventually allow them to reconnect damaged nerves in people with traumatic brain injury and even spinal cord injury.

The nerve cells used to make these rings came from rats. They have been "tagged" with a fluorescent red dye to make them show up in the picture.

The experiment demonstrates how scientists are learning to manipulate cell growth.

In a past experiment, paralysed rats which had a segment of their spinal cord missing regained some function in their hind legs after researchers grew nerve tissue across a plastic scaffold placed in the gap.

Scientists concede, however, it could be many years before they are able to repeat such work in humans.

See also:

17 Apr 01 | Health
Spinal injury reversed in the lab
14 Jul 99 | Sci/Tech
Paralysis 'cure' promised
02 Feb 99 | Sci/Tech
Doctors herald grow-your-own organs
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